CADIC   02618
CENTRO AUSTRAL DE INVESTIGACIONES CIENTIFICAS
Unidad Ejecutora - UE
artículos
Título:
Calc-alkaliine rear-arc magmatism in the Fuegian Andes: implications for the mid-Cretaceous tectonomagmatic evolution of southernmost South America
Autor/es:
GONZÁLEZ GUILLOT, M.; ESCAYOLA, M.; ACEVEDO, R.
Revista:
JOURNAL OF SOUTH AMERICAN EARTH SCIENCES
Editorial:
PERGAMON-ELSEVIER SCIENCE LTD
Referencias:
Año: 2010 vol. 31 p. 1 - 16
ISSN:
0895-9811
Resumen:
The
magmatic arc of the Fuegian Andes is composed mostly of Upper Mesozoic to
Cenozoic calc-alkaline plutons and subordinated lavas. To the rear arc,
however, isolated mid-Cretaceous monzonitic plutons and small calc-alkaline
dykes and sills crop out. This calc-alkaline unit (the Ushuaia Peninsula
Andesites, UPA) includes hornblende-rich, porphyritic quartz meladiorites,
granodiorites, andesites, dacites and lamprophyres. Radiometric dating and
cross-cutting relationships indicate that UPA is younger than the monzonitic
suite. The geochemistry of UPA is medium to high K, with high LILE (Ba 500-2000
ppm, Sr 800-1400 ppm), HFSE (Th 7-23 ppm, Nb 7-13 ppm, Ta 0.5-1.1 ppm) and LREE
(La 16-51 ppm) contents, along with relatively low HREE (Yb 1.7-1.3 ppm) and Y
(9-19 ppm). The similar mineralogy and geochemistry of all UPA rocks suggest
they evolved from a common parental magma, by low pressure crystal
fractionation, without significant crustal assimilation. A pure Rayleigh
fractionation model indicates that 60-65% of crystal fractionation of 60%
hornblende + 34% plagioclase + 4% clinopyroxene + 1% Fe-Ti oxide, apatite and
sphene (a paragenesis similar of UPA mafic rocks) can explain evolution from
lamprophyres to dacites. The UPA has higher LILE, HFSE and LREE, and lower HREE
and Y than the calc-alkaline plutons and lavas of the volcanic front. The HREE
and Y are lower than in the potassic plutons as well. High concentrations of
Th, Nb, Ta, Zr, Hf, LREE and Ce/Pb, and low U/Th, Ba/Th ratios in UPA, even in
the least differentiated samples, suggest contributions from subducted
sediments to the mantle source. On the other hand, relatively low HREE and Y,
high LREE/HREE (La/Yb 11-38) ratios and Nb-Ta contents can be interpreted as
mantle metasomatism by partial melts of either subducted garnetiferous oceanic
sediment or basalt as well. Additionally, high LILE content in UPA, similar to
the potassic plutons, suggests also a mantle wedge previously metasomatized by
potassic parental magmas in their route to crustal levels. Therefore, UPA
represents a unique suite in the Fuegian arc generated in a multiple hybridized
source. UPA generation is related to a transition from normal to flat
subduction which additionally caused the widening and landward migration of the
magmatic arc, as well as crustal deformation. Rear-arc magmatism endured ca. 22 m.y.; afterwards,
calc-alkaline magmatism remained at the volcanic front.